SU1744453A1 - Device for calibration of two-coordinate autocollimators - Google Patents

Abstract

The invention relates to a measurement technique and can be used for the calibration of two-coordinate auto collimators. The aim of the invention is to improve the accuracy by eliminating the error of the installation of optical elements to bias the beam of the autocollimator in two coordinates by the measurement results. When the slab is rotated, the beam of the autocollimator, reflected in series from the reflectors, will shift simultaneously in two directions — vertical and horizontal. Thus, by setting the angular displacement of the reflector in one plane in the invention, a beam of rays is shifted at the input of the autocollimator in two planes. 1 il.

Description

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The invention relates to a measurement technique and can be used for the calibration of two-coordinate auto collimators.

Methods are known for testing single-coordinate autocollimators, when an examiner is used as a high-precision model measuring instrument that reproduces small increments of the angle, the axis of rotation of which is horizontal. In this case, a mirror is installed on its turntable, the reflecting surface of which is parallel to the axis of rotation of the platform. A calibrated autocollimator is scanned onto the surface of the mirror, and the angle measurement is performed in a vertical plane perpendicular to the axis of rotation of the platform.

A known method for determining the error of a 2-coordinate actoclimator with the help of an examiner, which is based on the principle of converting an angle of rotation from a vertical plane to a horizontal one. To do this, an optical element (a Dove prism) is used, which, when rotated at a certain angle, changes the direction of the luminous flux passing through it, coming from the collimator mounted on the examiner's rotating plate.

The disadvantages of this method are very stringent requirements for the manufacture of an optical element, different reproduction accuracy of angles in two mutually perpendicular planes (due to inaccurate positioning of the prism), and the impossibility of simultaneous

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reproduction of the angles in the two mentioned planes (which is essential for the accuracy of the verification of two / coordinate actollimators). In addition, the autocollimator being tested is operating in the telescope mode, not in the autocollimation mode, and therefore the readings on the autocollimator scale should be multiplied by two.

The purpose of the invention is to simplify calibration, increase accuracy and productivity by reducing the requirements for precision manufacturing and installation of optical elements.

This is achieved by supplying the known device with a second reflector bonded to the base so that the plane passing through the normals to both reflectors makes an angle of 45 ° with the predetermined axis, and the autocollimator is placed on the base so that the optical axis is coplanar with normal mi of both reflectors.

The drawing shows a functional diagram of the proposed device.

The device comprises a base 1, a plate 2, bonded to the base can be rotated around a given axis, a meter 3 of the angle of rotation of the plate bonded to the base, a reflector 4 attached to the plate so that its normal is perpendicular to the given axis, the reflector 5 bonded with the base so that the plane passing through the normals to both reflectors is an angle of 45 ° with a given axis. A controlled autocollimator 6 is placed on the base so that its optical axis is coplanar with the normals of both reflectors.

The device works as follows. When turning the plate 2 at the angle p beam

rays of the autocollimators, reflected sequentially from the reflectors 4 and 5, will be displaced simultaneously in two directions - vertical and horizontal, and in the field of view of the autocollimator the autocollimation image of the brand of the autocollimator 6 will be shifted along two axes, while the angle specified by each coordinate, equals

a p sin 45 ° at Jf,

where is the angle of rotation of the examiner's plate. Thus, setting the angular displacement of the reflector 4 in one plane provides the beam offset at the input of the autocollimator 6 in two planes.

The proposed device provides an increase in accuracy by eliminating the error in placing optical elements to bias the beam of the autocollimator in two coordinates by the measurement results.

Claims (1)

Claims An apparatus for calibrating two-coordinate autocollimators comprising a base, a plate bonded to the base with the possibility of rotation around a given axis, a meter of the angle of rotation of the plates bonded to the base, a reflector fixed on the plate so that its normal is perpendicular to the specified axis, which differs from in order to improve the accuracy of the calibration, it is equipped with a second reflector bonded to the base so that the plane passing through the normals to both reflectors makes an angle of 45 ° with a given axis, and The autocollimator is placed on the base so that its optical axis is coplanar with the normals of both reflectors.